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1
CELLULOSE FABRICS – CARRIERS
OF VITAMIN E?Tanja PUSIC, Sandra BISCHOF, Iva MATIJEVIC & Edita VUJASINOVIC
University of Zagreb, Faculty of Textile Technology
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Cosmetotextiles
Natural substances like rose oil, mint extract, aloe vera or vitamin E
through controlled release to the skin can provide benefits that consumers
can feel (in therapeutic or cosmetic way).
There are essentially two different ways of manufacturing cosmetic textiles, they are the binding of microencapsulatedcosmetic components or the fabric coating by active finishes.
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Experimental
Vitamin E (α-Tocopherol)
In the cosmetic industry vitamin E is used as antioxidant and active
substance among others because of its moisture binding capacity in
aliphatic cosmetic creams, lotions, emulsions, body and face oils for dry
skin care as well as for decorative cosmetics like lipsticks. It is also
successfully applied for various skin diseases.
Amphipathic and lipid-soluble compound
Easily oxidized when subjected to heat, light and alkaline conditions
Consist of a polar (hydrophilic) chromanol ring and an apolar(hydrophobic) 16-carbon side chain attached to the ring via the C-2 atom having saturated phityl side chains
present in nature, e.g.
vegetable oil and
nutsthey
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Experimental
Technical parameter Cotton Viscose
Weave Plain Plain
Mass per unit area (gm-2) 177 141
Warp yarn density (cm-1) 25 36
Weft yarn density (cm-1) 25 28
Product Chemical composition Concentration (g/l)
NouWell E Cyclodextrine--tocopherol complex 50
Sarabid OL special alkyl polyglycol ether 3
Arristan PMD microdispersion of modified polyurethane 45
Tubingal SMF microemulsified functional polysiloxane 35
Fabrics
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Procedures
Padding process was applied on a laboratory foulard with liquor pick-up of
90% for cotton and
97% for viscose fabrics.
Treated samples were dried for 2 min at 110°C and cured for 60 seconds at 150°C.
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Procedures
Washing process was performed in Linitest
Bath ratio 1:20
Temperature 40°C
Standard detergent ECE A in a concentration 2.5 g/l
5 cycles
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Methodes
Microscopy Scanning Electron Microscope (MIRA\FE-
SEM, Tescan, Czech Republic). The specimens were sputter-coated with a palladium-gold alloy. The coated samples were then analyzed using the SEM operating at an accelerating voltage of 10.00 kV and magnification of 1000 x.
Streaming potential The streaming potential method was
applied for surface characterization of the cellulose based fabrics. The samples were placed in the adjustable gap cell (AGC) of an EKA, Electrokinetic Analyzer, A. Paar, Austria.
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Results
Detection of Vitamin E by drop test was done on treated cotton and viscose fabrics before and after 5 washing cycles
treated washed treated washed
COTTON fabric VISCOSE fabric
Qualitative determination of vitamin E
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Zeta potential of untreated and functionalised COTTON fabrics
before and after washing versus pH of a 1 mmol/l KCl
Surface charge of cotton fabrics treated with vitamin E – cyclodexrtine complex is less negative than a surface charge of initial untreated cotton fabric presence of hydrophobic substances onto surface
Functional polysiloxane softener - responsible for a surface characteristic of cotton fabric treated with Vitamin E
Decrease of finish deposits in alkali detergent bath
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Zeta potential of untreated and wellness finished
VISCOSE fabrics before and after washing versus pH of a 1
mmol/l KCl
Untreated viscose materials are characterised by higher hydrophilicity than cotton resulting in lower surface charge
Cosmeto finish further decrease zeta potential of viscose fabric
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Zeta potential of tested fabrics at pH 9
After 5x washing cycles zeta potential value of treated samples are almost near initial values of untreated fabrics low persistence
Despite this former titration curve for treated viscose fabric after washing showed opposite trend below pH 8 medium persistence
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CONCLUSIONS
Identification of -tocopherol on functionalised cotton and viscose fabric before and after washing by drop test (iron (III) chloride in combination with dipyridil) proved to be quick and easy qualitative method.
Streaming current method prove to be convenient not only for qualification but also for cosmeto-finish durability.
Surface characterisation of cotton and viscose fabrics by SEM proved to be comparable with results obtained by streaming current method.
Both methodologies proved to be convenient for a pre-characterization of cosmeto-textiles.
Functionalization of cotton and viscose fabrics with Vitamin E was efficient and partly persistent in washing.
Further analytical technique recommended for quantification of -tocopherolon cosmetic textiles as well as life-time in washing will be HPLC method.